2010ApJ...721..923L -
Astrophys. J., 721, 923-928 (2010/October-1)
Mass transfer, transiting stream, and magnetopause in close-in exoplanetary systems with applications to WASP-12.
LAI D., HELLING Ch. and VAN DEN HEUVEL E.P.J.
Abstract (from CDS):
We study mass transfer by Roche lobe overflow in close-in exoplanetary systems. The planet's atmospheric gas passes through the inner Lagrangian point and flows along a narrow stream, accelerating to 100-200 km/s velocity before forming an accretion disk. We show that the cylinder-shaped accretion stream can have an area (projected in the plane of the sky) comparable to that of the planet and a significant optical depth to spectral line absorption. Such a "transiting cylinder" may produce an earlier ingress of the planet transit, as suggested by recent Hubble Space Telescope observations of the WASP-12 system. The asymmetric disk produced by the accretion stream may also lead to time-dependent obscuration of the starlight and apparent earlier ingress. We also consider the interaction of the stellar wind with the planetary magnetosphere. Since the wind speed is subsonic/sub-Alfvénic and comparable to the orbital velocity of the planet, the head of the magnetopause lies eastward relative to the substellar line (the line joining the planet and the star). The gas around the magnetopause may, if sufficiently compressed, give rise to asymmetric ingress/egress during the planet transit, although more works are needed to evaluate this possibility.
Abstract Copyright:
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Journal keyword(s):
hydrodynamics - planetary systems - stars: individual: WASP-12 - stars: winds, outflows
Simbad objects:
3
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